(* Test bench for sorting algorithms. *) (* ocamlopt -noassert sorts.ml -cclib -lunix *) open Printf;; (* Criteria: 0. stack overhead: at most log n. 1. stable or not. 2. space overhead. 3. speed. *) (************************************************************************) (* auxiliary functions *) let rec exp2 n = if n <= 0 then 1 else 2 * exp2 (n-1);; let id x = x;; let postl x y = Array.of_list y;; let posta x y = x;; let mkconst n = Array.make n 0;; let chkconst _ n a = (a = mkconst n);; let mksorted n = let a = Array.make n 0 in for i = 0 to n - 1 do a.(i) <- i; done; a ;; let chksorted _ n a = (a = mksorted n);; let mkrev n = let a = Array.make n 0 in for i = 0 to n - 1 do a.(i) <- n - 1 - i; done; a ;; let chkrev _ n a = (a = mksorted n);; let seed = ref 0;; let random_reinit () = Random.init !seed;; let random_get_state () = let a = Array.make 55 0 in for i = 0 to 54 do a.(i) <- Random.bits (); done; Random.full_init a; a ;; let random_set_state a = Random.full_init a;; let chkgen mke cmp rstate n a = let marks = Array.make n (-1) in let skipmarks l = if marks.(l) = -1 then l else begin let m = ref marks.(l) in while marks.(!m) <> -1 do incr m; done; marks.(l) <- !m; !m end in let linear e l = let l = skipmarks l in let rec loop l = if cmp a.(l) e > 0 then raise Exit else if e = a.(l) then marks.(l) <- l+1 else loop (l+1) in loop l in let rec dicho e l r = if l = r then linear e l else begin assert (l < r); let m = (l + r) / 2 in if cmp a.(m) e >= 0 then dicho e l m else dicho e (m + 1) r end in try for i = 0 to n-2 do if cmp a.(i) a.(i+1) > 0 then raise Exit; done; random_set_state rstate; for i = 0 to n-1 do dicho (mke i) 0 (Array.length a - 1); done; true with Exit | Invalid_argument _ -> false; ;; let mkrand_dup n = let a = Array.make n 0 in for i = 0 to (n-1) do a.(i) <- Random.int n; done; a ;; let chkrand_dup rstate n a = chkgen (fun i -> Random.int n) compare rstate n a ;; let mkrand_nodup n = let a = Array.make n 0 in for i = 0 to (n-1) do a.(i) <- Random.bits (); done; a ;; let chkrand_nodup rstate n a = chkgen (fun i -> Random.bits ()) compare rstate n a ;; let mkfloats n = let a = Array.make n 0.0 in for i = 0 to (n-1) do a.(i) <- Random.float 1.0; done; a ;; let chkfloats rstate n a = chkgen (fun i -> Random.float 1.0) compare rstate n a ;; type record = { s1 : bytes; s2 : bytes; i1 : int; i2 : int; };; let rand_string () = let len = Random.int 10 in let s = String.create len in for i = 0 to len-1 do s.[i] <- Char.chr (Random.int 256); done; s ;; let mkrec1 b i = { s1 = rand_string (); s2 = rand_string (); i1 = Random.int b; i2 = i; };; let mkrecs b n = Array.init n (mkrec1 b);; let mkrec1_rev b i = { s1 = rand_string (); s2 = rand_string (); i1 = - i; i2 = i; };; let mkrecs_rev n = Array.init n (mkrec1_rev 0);; let cmpstr r1 r2 = let c1 = compare r1.s1 r2.s1 in if c1 = 0 then compare r1.s2 r2.s2 else c1 ;; let lestr r1 r2 = let c1 = compare r1.s1 r2.s1 in if c1 = 0 then r1.s2 <= r2.s2 else (c1 < 0) ;; let chkstr b rstate n a = chkgen (mkrec1 b) cmpstr rstate n a;; let cmpint r1 r2 = compare r1.i1 r2.i1;; let leint r1 r2 = r1.i1 <= r2.i1;; let chkint b rstate n a = chkgen (mkrec1 b) cmpint rstate n a;; let cmplex r1 r2 = let c1 = compare r1.i1 r2.i1 in if c1 = 0 then compare r1.i2 r2.i2 else c1 ;; let lelex r1 r2 = let c1 = compare r1.i1 r2.i1 in if c1 = 0 then r1.i2 <= r2.i2 else (c1 < 0) ;; let chklex b rstate n a = chkgen (mkrec1 b) cmplex rstate n a;; (************************************************************************) let lens = [ 0; 1; 2; 3; 4; 5; 6; 7; 8; 9; 10; 11; 12; 13; 28; 100; 127; 128; 129; 193; 506; 1000; 1025; 1535; 2323; ];; type ('a, 'b, 'c, 'd) aux = { prepf : ('a -> 'a -> int) -> ('a -> 'a -> bool) -> 'b; prepd : 'a array -> 'c; postd : 'a array -> 'd -> 'a array; };; let ll = { prepf = (fun x y -> y); prepd = Array.to_list; postd = postl };; let lc = { prepf = (fun x y -> x); prepd = Array.to_list; postd = postl };; let al = { prepf = (fun x y -> y); prepd = id; postd = posta };; let ac = { prepf = (fun x y -> x); prepd = id; postd = posta };; type 'a outcome = Value of 'a | Exception of exn;; let numfailed = ref 0;; let test1 name f prepdata postdata cmp desc mk chk = random_reinit (); printf " %s with %s" name desc; let i = ref 0 in List.iter (fun n -> if !i = 0 then printf "\n "; incr i; if !i > 11 then i := 0; printf "%5d" n; flush stdout; let rstate = random_get_state () in let a = mk n in let input = prepdata a in let output = try Value (f cmp input) with e -> Exception e in printf "."; flush stdout; begin match output with | Value v -> if not (chk rstate n (postdata a v)) then (incr numfailed; printf "\n*** FAIL\n") | Exception e -> incr numfailed; printf "\n*** %s\n" (Printexc.to_string e) end; flush stdout; ) lens; printf "\n"; ;; let test name stable f1 f2 aux1 aux2 = printf "Testing %s...\n" name; let t a b c d = test1 name f1 aux1.prepd aux1.postd a b c d in let cmp = aux1.prepf compare (<=) in t cmp "constant ints" mkconst chkconst; t cmp "sorted ints" mksorted chksorted; t cmp "reverse-sorted ints" mkrev chkrev; t cmp "random ints (many dups)" mkrand_dup chkrand_dup; t cmp "random ints (few dups)" mkrand_nodup chkrand_nodup; (* let t a b c d = test1 name f3 aux3.prepd aux3.postd a b c d in t cmp "random floats" mkfloats chkfloats; *) let t a b c d = test1 name f2 aux2.prepd aux2.postd a b c d in let cmp = aux2.prepf cmpstr lestr in t cmp "records (str)" (mkrecs 1) (chkstr 1); let cmp = aux2.prepf cmpint leint in List.iter (fun m -> t cmp (sprintf "records (int[%d])" m) (mkrecs m) (chkint m) ) [1; 10; 100; 1000]; if stable then List.iter (fun m -> t cmp (sprintf "records (int[%d]) [stable]" m) (mkrecs m) (chklex m) ) [1; 10; 100; 1000]; ;; (************************************************************************) (* Warning: rpt_timer cannot be used for the array sorts because the sorting functions have effects. *) let rpt_timer1 repeat f x = Gc.compact (); ignore (f x); let st = Sys.time () in for i = 1 to repeat do ignore (f x); done; let en = Sys.time () in en -. st ;; let rpt_timer f x = let repeat = ref 1 in let t = ref (rpt_timer1 !repeat f x) in while !t < 0.2 do repeat := 10 * !repeat; t := rpt_timer1 !repeat f x; done; if !t < 2.0 then begin repeat := (int_of_float (10. *. (float !repeat) /. !t) + 1); t := rpt_timer1 !repeat f x; end; !t /. (float !repeat) ;; let timer f x = let st = Sys.time () in ignore (f x); let en = Sys.time () in (en -. st) ;; let table1 limit f mkarg = printf " %10s %9s %9s %9s %9s %9s\n" "n" "t1" "t2" "t3" "t4" "t5"; let sz = ref 49151 in while !sz < int_of_float (2. ** float limit) do begin try printf " %10d " !sz; flush stdout; for i = 0 to 4 do let arg = mkarg !sz in let t = timer f arg in printf " %.2e " t; flush stdout; done; printf "\n"; with e -> printf "*** %s\n" (Printexc.to_string e); end; flush stdout; sz := 2 * !sz + 1; done; ;; let table2 limit f mkarg = printf " %10s %9s %9s %9s %9s %9s\n" " n" "t" "t/n" "t/nlogn" "t/nlog^2n" "t/n^2"; let sz = ref 49151 in while float !sz < 2. ** float limit do begin try printf " %10d " !sz; flush stdout; Gc.compact (); let arg = mkarg !sz in let t = timer f arg in let n = float !sz in let logn = log (float !sz) /. log 2. in printf "%.2e %.2e %.2e %.2e %.2e\n" t (t/.n) (t/.n/.logn) (t/.n/.logn/.logn) (t/.n/.n); with e -> printf "*** %s\n" (Printexc.to_string e); end; flush stdout; sz := 2 * !sz + 1; done; ;; let table3 limit f mkarg = printf " %10s %9s %9s %9s %9s %9s\n" "n" "t1" "t2" "t3" "t4" "t5"; let sz = ref 2 in while float !sz < 2. ** float limit do begin try printf " %10d " !sz; flush stdout; for i = 0 to 4 do let arg = mkarg !sz in let t = rpt_timer f arg in printf " %.2e " t; flush stdout; done; printf "\n"; with e -> printf "*** %s\n" (Printexc.to_string e); end; flush stdout; sz := 2 * !sz + 1; done; ;; (************************************************************************) (* benchmarks: 1a. random records, sorted with two keys 1b. random integers 1c. random floats 2a. integers, constant 2b. integers, already sorted 2c. integers, reverse sorted only for short lists: 3a. random records, sorted with two keys 3b. random integers 3c. random floats *) let bench1a limit name f aux = (* Don't do benchmarks with assertions enabled. *) assert (not true); random_reinit (); printf "\n%s with random records [10]:\n" name; let cmp = aux.prepf cmplex lelex in table1 limit (f cmp) (fun n -> aux.prepd (mkrecs 10 n)); ;; let bench1b limit name f aux = (* Don't do benchmarks with assertions enabled. *) assert (not true); random_reinit (); printf "\n%s with random integers:\n" name; let cmp = aux.prepf (-) (<=) in table1 limit (f cmp) (fun n -> aux.prepd (mkrand_nodup n)); ;; let bench1c limit name f aux = (* Don't do benchmarks with assertions enabled. *) assert (not true); random_reinit (); printf "\n%s with random floats:\n" name; let cmp = aux.prepf compare (<=) in table1 limit (f cmp) (fun n -> aux.prepd (mkfloats n)); ;; let bench2 limit name f aux = (* Don't do benchmarks with assertions enabled. *) assert (not true); printf "\n%s with constant integers:\n" name; let cmp = aux.prepf compare (<=) in table2 limit (f cmp) (fun n -> aux.prepd (mkconst n)); printf "\n%s with sorted integers:\n" name; let cmp = aux.prepf compare (<=) in table2 limit (f cmp) (fun n -> aux.prepd (mksorted n)); printf "\n%s with reverse-sorted integers:\n" name; let cmp = aux.prepf compare (<=) in table2 limit (f cmp) (fun n -> aux.prepd (mkrev n)); ;; let bench3a limit name f aux = (* Don't do benchmarks with assertions enabled. *) assert (not true); random_reinit (); printf "\n%s with random records [10]:\n" name; let cmp = aux.prepf cmplex lelex in table3 limit (f cmp) (fun n -> aux.prepd (mkrecs 10 n)); ;; let bench3b limit name f aux = (* Don't do benchmarks with assertions enabled. *) assert (not true); random_reinit (); printf "\n%s with random integers:\n" name; let cmp = aux.prepf (-) (<=) in table3 limit (f cmp) (fun n -> aux.prepd (mkrand_nodup n)); ;; let bench3c limit name f aux = (* Don't do benchmarks with assertions enabled. *) assert (not true); random_reinit (); printf "\n%s with random floats:\n" name; let cmp = aux.prepf compare (<=) in table3 limit (f cmp) (fun n -> aux.prepd (mkfloats n)); ;; (************************************************************************) (* merge sort on lists *) (* FIXME to do: cutoff to do: cascade pattern-matchings (delete pairs) to do: intermediary closure for merge *) let (@@) = List.rev_append;; let lmerge_1a cmp l = let rec init accu = function | [] -> accu | e::rest -> init ([e] :: accu) rest in let rec merge rest accu2 accu l1 l2 = (* l1,l2,rest are forward; accu,accu2 are rev *) match l1, l2 with | [] , _ -> mergepairs ((l2 @@ accu)::accu2) rest | _ , [] -> mergepairs ((l1 @@ accu)::accu2) rest | h1::t1, h2::t2 -> if cmp h1 h2 <= 0 then merge rest accu2 (h1::accu) t1 l2 else merge rest accu2 (h2::accu) l1 t2 and merge_rev rest accu2 accu l1 l2 = (* accu, accu2 are forward; l1,l2,rest are rev *) match l1, l2 with | [] , _ -> mergepairs_rev ((l2 @@ accu)::accu2) rest | _ , [] -> mergepairs_rev ((l1 @@ accu)::accu2) rest | h1::t1, h2::t2 -> if cmp h2 h1 <= 0 then merge_rev rest accu2 (h1::accu) t1 l2 else merge_rev rest accu2 (h2::accu) l1 t2 and mergepairs accu = function (* accu is rev, arg is forward *) | [] -> mergeall_rev accu | [l] -> mergeall_rev ((List.rev l)::accu) | l1::l2::rest -> merge rest accu [] l1 l2 and mergepairs_rev accu = function (* accu is forward, arg is rev *) | [] -> mergeall accu | [l] -> mergeall ((List.rev l)::accu) | l1::l2::rest -> merge_rev rest accu [] l1 l2 and mergeall = function (* arg is forward *) | [] -> [] | [l] -> l | llist -> mergepairs [] llist and mergeall_rev = function (* arg is rev *) | [] -> [] | [l] -> List.rev l | llist -> mergepairs_rev [] llist in mergeall_rev (init [] l) ;; let lmerge_1b cmp l = let rec init accu = function | [] -> accu | [e] -> [e] :: accu | e1::e2::rest -> init ((if cmp e1 e2 <= 0 then [e2;e1] else [e1;e2])::accu) rest in let rec merge rest accu2 accu l1 l2 = (* l1,l2,rest are forward; accu,accu2 are rev *) match l1, l2 with | [] , _ -> mergepairs ((l2 @@ accu)::accu2) rest | _ , [] -> mergepairs ((l1 @@ accu)::accu2) rest | h1::t1, h2::t2 -> if cmp h1 h2 <= 0 then merge rest accu2 (h1::accu) t1 l2 else merge rest accu2 (h2::accu) l1 t2 and merge_rev rest accu2 accu l1 l2 = (* accu, accu2 are forward; l1,l2,rest are rev *) match l1, l2 with | [] , _ -> mergepairs_rev ((l2 @@ accu)::accu2) rest | _ , [] -> mergepairs_rev ((l1 @@ accu)::accu2) rest | h1::t1, h2::t2 -> if cmp h2 h1 <= 0 then merge_rev rest accu2 (h1::accu) t1 l2 else merge_rev rest accu2 (h2::accu) l1 t2 and mergepairs accu = function (* accu is rev, arg is forward *) | [] -> mergeall_rev accu | [l] -> mergeall_rev ((List.rev l)::accu) | l1::l2::rest -> merge rest accu [] l1 l2 and mergepairs_rev accu = function (* accu is forward, arg is rev *) | [] -> mergeall accu | [l] -> mergeall ((List.rev l)::accu) | l1::l2::rest -> merge_rev rest accu [] l1 l2 and mergeall = function (* arg is forward *) | [] -> [] | [l] -> l | llist -> mergepairs [] llist and mergeall_rev = function (* arg is rev *) | [] -> [] | [l] -> List.rev l | llist -> mergepairs_rev [] llist in mergeall_rev (init [] l) ;; let lmerge_1c cmp l = let rec init accu = function | [] -> accu | [e] -> [e] :: accu | e1::e2::rest -> init ((if cmp e1 e2 <= 0 then [e2;e1] else [e1;e2])::accu) rest in let rec merge rest accu2 accu l1 l2 = (* l1,l2,rest are forward; accu,accu2 are rev *) match l1 with | [] -> mergepairs ((l2 @@ accu)::accu2) rest | h1::t1 -> match l2 with | [] -> mergepairs ((l1 @@ accu)::accu2) rest | h2::t2 -> if cmp h1 h2 <= 0 then merge rest accu2 (h1::accu) t1 l2 else merge rest accu2 (h2::accu) l1 t2 and merge_rev rest accu2 accu l1 l2 = (* accu, accu2 are forward; l1,l2,rest are rev *) match l1 with | [] -> mergepairs_rev ((l2 @@ accu)::accu2) rest | h1::t1 -> match l2 with | [] -> mergepairs_rev ((l1 @@ accu)::accu2) rest | h2::t2 -> if cmp h2 h1 <= 0 then merge_rev rest accu2 (h1::accu) t1 l2 else merge_rev rest accu2 (h2::accu) l1 t2 and mergepairs accu = function (* accu is rev, arg is forward *) | [] -> mergeall_rev accu | [l] -> mergeall_rev ((List.rev l)::accu) | l1::l2::rest -> merge rest accu [] l1 l2 and mergepairs_rev accu = function (* accu is forward, arg is rev *) | [] -> mergeall accu | [l] -> mergeall ((List.rev l)::accu) | l1::l2::rest -> merge_rev rest accu [] l1 l2 and mergeall = function (* arg is forward *) | [] -> [] | [l] -> l | llist -> mergepairs [] llist and mergeall_rev = function (* arg is rev *) | [] -> [] | [l] -> List.rev l | llist -> mergepairs_rev [] llist in mergeall_rev (init [] l) ;; let lmerge_1d cmp l = let rec init accu = function | [] -> accu | [e] -> [e] :: accu | e1::e2::rest -> init ((if cmp e1 e2 <= 0 then [e2;e1] else [e1;e2])::accu) rest in let rec merge rest accu2 accu l1 l2 = (* l1,l2,rest are forward; accu,accu2 are rev *) let merge_rest_accu2 accu l1 l2 = match l1 with | [] -> mergepairs ((l2 @@ accu)::accu2) rest | h1::t1 -> match l2 with | [] -> mergepairs ((l1 @@ accu)::accu2) rest | h2::t2 -> if cmp h1 h2 <= 0 then merge rest accu2 (h1::accu) t1 l2 else merge rest accu2 (h2::accu) l1 t2 in merge_rest_accu2 accu l1 l2 and merge_rev rest accu2 accu l1 l2 = (* accu, accu2 are forward; l1,l2,rest are rev *) let merge_rev_rest_accu2 accu l1 l2 = match l1 with | [] -> mergepairs_rev ((l2 @@ accu)::accu2) rest | h1::t1 -> match l2 with | [] -> mergepairs_rev ((l1 @@ accu)::accu2) rest | h2::t2 -> if cmp h2 h1 <= 0 then merge_rev rest accu2 (h1::accu) t1 l2 else merge_rev rest accu2 (h2::accu) l1 t2 in merge_rev_rest_accu2 accu l1 l2 and mergepairs accu = function (* accu is rev, arg is forward *) | [] -> mergeall_rev accu | [l] -> mergeall_rev ((List.rev l)::accu) | l1::l2::rest -> merge rest accu [] l1 l2 and mergepairs_rev accu = function (* accu is forward, arg is rev *) | [] -> mergeall accu | [l] -> mergeall ((List.rev l)::accu) | l1::l2::rest -> merge_rev rest accu [] l1 l2 and mergeall = function (* arg is forward *) | [] -> [] | [l] -> l | llist -> mergepairs [] llist and mergeall_rev = function (* arg is rev *) | [] -> [] | [l] -> List.rev l | llist -> mergepairs_rev [] llist in mergeall_rev (init [] l) ;; (************************************************************************) (* merge sort on lists, user-contributed (NOT STABLE) *) (* BEGIN code contributed by Yann Coscoy *) let rec rev_merge_append order l1 l2 acc = match l1 with [] -> List.rev_append l2 acc | h1 :: t1 -> match l2 with [] -> List.rev_append l1 acc | h2 :: t2 -> if order h1 h2 then rev_merge_append order t1 l2 (h1::acc) else rev_merge_append order l1 t2 (h2::acc) let rev_merge order l1 l2 = rev_merge_append order l1 l2 [] let rec rev_merge_append' order l1 l2 acc = match l1 with | [] -> List.rev_append l2 acc | h1 :: t1 -> match l2 with | [] -> List.rev_append l1 acc | h2 :: t2 -> if order h2 h1 then rev_merge_append' order t1 l2 (h1::acc) else rev_merge_append' order l1 t2 (h2::acc) let rev_merge' order l1 l2 = rev_merge_append' order l1 l2 [] let lmerge_3 order l = let rec initlist l acc = match l with | e1::e2::rest -> initlist rest ((if order e1 e2 then [e1;e2] else [e2;e1])::acc) | [e] -> [e]::acc | [] -> acc in let rec merge2 ll acc = match ll with | [] -> acc | [l] -> [List.rev l]@acc | l1::l2::rest -> merge2 rest (rev_merge order l1 l2::acc) in let rec merge2' ll acc = match ll with | [] -> acc | [l] -> [List.rev l]@acc | l1::l2::rest -> merge2' rest (rev_merge' order l1 l2::acc) in let rec mergeall rev = function | [] -> [] | [l] -> if rev then List.rev l else l | llist -> mergeall (not rev) ((if rev then merge2' else merge2) llist []) in mergeall false (initlist l []) (* END code contributed by Yann Coscoy *) (************************************************************************) (* merge sort on short lists, Francois Pottier *) (* BEGIN code contributed by Francois Pottier *) (* [chop k l] returns the list [l] deprived of its [k] first elements. The length of the list [l] must be [k] at least. *) let rec chop k l = match k, l with | 0, _ -> l | _, x :: l -> chop (k-1) l | _, _ -> assert false ;; let rec merge order l1 l2 = match l1 with [] -> l2 | h1 :: t1 -> match l2 with [] -> l1 | h2 :: t2 -> if order h1 h2 then h1 :: merge order t1 l2 else h2 :: merge order l1 t2 ;; let rec lmerge_4a order l = match l with | [] | [ _ ] -> l | _ -> let rec sort k l = (* k > 1 *) match k, l with | 2, x1 :: x2 :: _ -> if order x1 x2 then [ x1; x2 ] else [ x2; x1 ] | 3, x1 :: x2 :: x3 :: _ -> if order x1 x2 then if order x2 x3 then [ x1 ; x2 ; x3 ] else if order x1 x3 then [ x1 ; x3 ; x2 ] else [ x3; x1; x2 ] else if order x1 x3 then [ x2; x1; x3 ] else if order x2 x3 then [ x2; x3; x1 ] else [ x3; x2; x1 ] | _, _ -> let k1 = k / 2 in let k2 = k - k1 in merge order (sort k1 l) (sort k2 (chop k1 l)) in sort (List.length l) l ;; (* END code contributed by Francois Pottier *) (************************************************************************) (* merge sort on short lists, Francois Pottier, adapted to new-style interface *) (* BEGIN code contributed by Francois Pottier *) (* [chop k l] returns the list [l] deprived of its [k] first elements. The length of the list [l] must be [k] at least. *) let rec chop k l = match k, l with | 0, _ -> l | _, x :: l -> chop (k-1) l | _, _ -> assert false ;; let rec merge order l1 l2 = match l1 with [] -> l2 | h1 :: t1 -> match l2 with [] -> l1 | h2 :: t2 -> if order h1 h2 <= 0 then h1 :: merge order t1 l2 else h2 :: merge order l1 t2 ;; let rec lmerge_4b order l = match l with | [] | [ _ ] -> l | _ -> let rec sort k l = (* k > 1 *) match k, l with | 2, x1 :: x2 :: _ -> if order x1 x2 <= 0 then [ x1; x2 ] else [ x2; x1 ] | 3, x1 :: x2 :: x3 :: _ -> if order x1 x2 <= 0 then if order x2 x3 <= 0 then [ x1 ; x2 ; x3 ] else if order x1 x3 <= 0 then [ x1 ; x3 ; x2 ] else [ x3; x1; x2 ] else if order x1 x3 <= 0 then [ x2; x1; x3 ] else if order x2 x3 <= 0 then [ x2; x3; x1 ] else [ x3; x2; x1 ] | _, _ -> let k1 = k / 2 in let k2 = k - k1 in merge order (sort k1 l) (sort k2 (chop k1 l)) in sort (List.length l) l ;; (* END code contributed by Francois Pottier *) (************************************************************************) (* merge sort on short lists a la Pottier, modified merge *) let rec chop k l = if k = 0 then l else begin match l with | x::t -> chop (k-1) t | _ -> assert false end ;; let lmerge_4c cmp l = let rec merge1 h1 t1 l2 = match l2 with | [] -> h1 :: t1 | h2 :: t2 -> if cmp h1 h2 <= 0 then h1 :: (merge2 t1 h2 t2) else h2 :: (merge1 h1 t1 t2) and merge2 l1 h2 t2 = match l1 with | [] -> h2 :: t2 | h1 :: t1 -> if cmp h1 h2 <= 0 then h1 :: (merge2 t1 h2 t2) else h2 :: (merge1 h1 t1 t2) in let merge l1 = function | [] -> l1 | h2 :: t2 -> merge2 l1 h2 t2 in let rec sort n l = match n, l with | 2, x1 :: x2 :: _ -> if cmp x1 x2 <= 0 then [x1; x2] else [x2; x1] | 3, x1 :: x2 :: x3 :: _ -> if cmp x1 x2 <= 0 then begin if cmp x2 x3 <= 0 then [x1; x2; x3] else if cmp x1 x3 <= 0 then [x1; x3; x2] else [x3; x1; x2] end else begin if cmp x1 x3 <= 0 then [x2; x1; x3] else if cmp x2 x3 <= 0 then [x2; x3; x1] else [x3; x2; x1] end | n, l -> let n1 = n asr 1 in let n2 = n - n1 in merge (sort n1 l) (sort n2 (chop n1 l)) in let len = List.length l in if len < 2 then l else sort len l ;; (************************************************************************) (* merge sort on short lists a la Pottier, logarithmic stack space *) let rec chop k l = if k = 0 then l else begin match l with | x::t -> chop (k-1) t | _ -> assert false end ;; let lmerge_4d cmp l = let rec rev_merge l1 l2 accu = match l1, l2 with | [], l2 -> l2 @@ accu | l1, [] -> l1 @@ accu | h1::t1, h2::t2 -> if cmp h1 h2 <= 0 then rev_merge t1 l2 (h1::accu) else rev_merge l1 t2 (h2::accu) in let rec rev_merge_rev l1 l2 accu = match l1, l2 with | [], l2 -> l2 @@ accu | l1, [] -> l1 @@ accu | h1::t1, h2::t2 -> if cmp h1 h2 > 0 then rev_merge_rev t1 l2 (h1::accu) else rev_merge_rev l1 t2 (h2::accu) in let rec sort n l = match n, l with | 2, x1 :: x2 :: _ -> if cmp x1 x2 <= 0 then [x1; x2] else [x2; x1] | 3, x1 :: x2 :: x3 :: _ -> if cmp x1 x2 <= 0 then begin if cmp x2 x3 <= 0 then [x1; x2; x3] else if cmp x1 x3 <= 0 then [x1; x3; x2] else [x3; x1; x2] end else begin if cmp x1 x3 <= 0 then [x2; x1; x3] else if cmp x2 x3 <= 0 then [x2; x3; x1] else [x3; x2; x1] end | n, l -> let n1 = n asr 1 in let n2 = n - n1 in rev_merge_rev (rev_sort n1 l) (rev_sort n2 (chop n1 l)) [] and rev_sort n l = match n, l with | 2, x1 :: x2 :: _ -> if cmp x1 x2 > 0 then [x1; x2] else [x2; x1] | 3, x1 :: x2 :: x3 :: _ -> if cmp x1 x2 > 0 then begin if cmp x2 x3 > 0 then [x1; x2; x3] else if cmp x1 x3 > 0 then [x1; x3; x2] else [x3; x1; x2] end else begin if cmp x1 x3 > 0 then [x2; x1; x3] else if cmp x2 x3 > 0 then [x2; x3; x1] else [x3; x2; x1] end | n, l -> let n1 = n asr 1 in let n2 = n - n1 in rev_merge (sort n1 l) (sort n2 (chop n1 l)) [] in let len = List.length l in if len < 2 then l else sort len l ;; (************************************************************************) (* merge sort on short lists a la Pottier, logarithmic stack space, in place: input list is freed as the output is being computed. *) let rec chop k l = if k = 0 then l else begin match l with | x::t -> chop (k-1) t | _ -> assert false end ;; let lmerge_4e cmp l = let rec rev_merge l1 l2 accu = match l1, l2 with | [], l2 -> l2 @@ accu | l1, [] -> l1 @@ accu | h1::t1, h2::t2 -> if cmp h1 h2 <= 0 then rev_merge t1 l2 (h1::accu) else rev_merge l1 t2 (h2::accu) in let rec rev_merge_rev l1 l2 accu = match l1, l2 with | [], l2 -> l2 @@ accu | l1, [] -> l1 @@ accu | h1::t1, h2::t2 -> if cmp h1 h2 > 0 then rev_merge_rev t1 l2 (h1::accu) else rev_merge_rev l1 t2 (h2::accu) in let rec sort n l = match n, l with | 2, x1 :: x2 :: _ -> if cmp x1 x2 <= 0 then [x1; x2] else [x2; x1] | 3, x1 :: x2 :: x3 :: _ -> if cmp x1 x2 <= 0 then begin if cmp x2 x3 <= 0 then [x1; x2; x3] else if cmp x1 x3 <= 0 then [x1; x3; x2] else [x3; x1; x2] end else begin if cmp x1 x3 <= 0 then [x2; x1; x3] else if cmp x2 x3 <= 0 then [x2; x3; x1] else [x3; x2; x1] end | n, l -> let n1 = n asr 1 in let n2 = n - n1 in let l2 = chop n1 l in let s1 = rev_sort n1 l in let s2 = rev_sort n2 l2 in rev_merge_rev s1 s2 [] and rev_sort n l = match n, l with | 2, x1 :: x2 :: _ -> if cmp x1 x2 > 0 then [x1; x2] else [x2; x1] | 3, x1 :: x2 :: x3 :: _ -> if cmp x1 x2 > 0 then begin if cmp x2 x3 > 0 then [x1; x2; x3] else if cmp x1 x3 > 0 then [x1; x3; x2] else [x3; x1; x2] end else begin if cmp x1 x3 > 0 then [x2; x1; x3] else if cmp x2 x3 > 0 then [x2; x3; x1] else [x3; x2; x1] end | n, l -> let n1 = n asr 1 in let n2 = n - n1 in let l2 = chop n1 l in let s1 = sort n1 l in let s2 = sort n2 l2 in rev_merge s1 s2 [] in let len = List.length l in if len < 2 then l else sort len l ;; (************************************************************************) (* chop-free version of Pottier's code, binary version *) let rec merge cmp l1 l2 = match l1, l2 with | [], l2 -> l2 | l1, [] -> l1 | h1 :: t1, h2 :: t2 -> if cmp h1 h2 <= 0 then h1 :: merge cmp t1 l2 else h2 :: merge cmp l1 t2 ;; let lmerge_5a cmp l = let rem = ref l in let rec sort_prefix n = if n <= 1 then begin match !rem with | [] -> [] | [x] as l -> rem := []; l | x::y::t -> rem := t; if cmp x y <= 0 then [x;y] else [y;x] end else if !rem = [] then [] else begin let l1 = sort_prefix (n-1) in let l2 = sort_prefix (n-1) in merge cmp l1 l2 end in let len = ref (List.length l) in let i = ref 0 in while !len > 0 do incr i; len := !len lsr 1; done; sort_prefix !i ;; (************************************************************************) (* chop-free version of Pottier's code, dichotomic version, ground cases 1 & 2 *) let rec merge cmp l1 l2 = match l1, l2 with | [], l2 -> l2 | l1, [] -> l1 | h1 :: t1, h2 :: t2 -> if cmp h1 h2 <= 0 then h1 :: merge cmp t1 l2 else h2 :: merge cmp l1 t2 ;; let lmerge_5b cmp l = let rem = ref l in let rec sort_prefix n = match n, !rem with | 1, x::t -> rem := t; [x] | 2, x::y::t -> rem := t; if cmp x y <= 0 then [x;y] else [y;x] | n, _ -> let n1 = n/2 in let n2 = n - n1 in let l1 = sort_prefix n1 in let l2 = sort_prefix n2 in merge cmp l1 l2 in let len = List.length l in if len <= 1 then l else sort_prefix len ;; (************************************************************************) (* chop-free version of Pottier's code, dichotomic version, ground cases 2 & 3 *) let rec merge cmp l1 l2 = match l1, l2 with | [], l2 -> l2 | l1, [] -> l1 | h1 :: t1, h2 :: t2 -> if cmp h1 h2 <= 0 then h1 :: merge cmp t1 l2 else h2 :: merge cmp l1 t2 ;; let lmerge_5c cmp l = let rem = ref l in let rec sort_prefix n = match n, !rem with | 2, x::y::t -> rem := t; if cmp x y <= 0 then [x;y] else [y;x] | 3, x::y::z::t -> rem := t; if cmp x y <= 0 then if cmp y z <= 0 then [x; y; z] else if cmp x z <= 0 then [x; z; y] else [z; x; y] else if cmp x z <= 0 then [y; x; z] else if cmp y z <= 0 then [y; z; x] else [z; y; x] | n, _ -> let n1 = n/2 in let n2 = n - n1 in let l1 = sort_prefix n1 in let l2 = sort_prefix n2 in merge cmp l1 l2 in let len = List.length l in if len <= 1 then l else sort_prefix len ;; (************************************************************************) (* chop-free, ref-free version of Pottier's code, dichotomic version, ground cases 2 & 3, modified merge *) let lmerge_5d cmp l = let rec merge1 h1 t1 l2 = match l2 with | [] -> h1::t1 | h2 :: t2 -> if cmp h1 h2 <= 0 then h1 :: merge2 t1 h2 t2 else h2 :: merge1 h1 t1 t2 and merge2 l1 h2 t2 = match l1 with | [] -> h2::t2 | h1 :: t1 -> if cmp h1 h2 <= 0 then h1 :: merge2 t1 h2 t2 else h2 :: merge1 h1 t1 t2 in let rec sort_prefix n l = match n, l with | 2, x::y::t -> ((if cmp x y <= 0 then [x;y] else [y;x]), t) | 3, x::y::z::t -> ((if cmp x y <= 0 then if cmp y z <= 0 then [x; y; z] else if cmp x z <= 0 then [x; z; y] else [z; x; y] else if cmp x z <= 0 then [y; x; z] else if cmp y z <= 0 then [y; z; x] else [z; y; x]), t) | n, _ -> let n1 = n/2 in let n2 = n - n1 in let (l1, rest1) = sort_prefix n1 l in match sort_prefix n2 rest1 with | (h2::t2, rest2) -> ((merge2 l1 h2 t2), rest2) | _ -> assert false in let len = List.length l in if len <= 1 then l else fst (sort_prefix len l) ;; (************************************************************************) (* merge sort on arrays, merge with tail-rec function *) let amerge_1a cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let src1r = src1ofs + src1len and src2r = src2ofs + src2len in let rec loop i1 s1 i2 s2 d = if cmp s1 s2 <= 0 then begin dst.(d) <- s1; let i1 = i1 + 1 in if i1 < src1r then loop i1 a.(i1) i2 s2 (d + 1) else Array.blit src2 i2 dst (d + 1) (src2r - i2) end else begin dst.(d) <- s2; let i2 = i2 + 1 in if i2 < src2r then loop i1 s1 i2 src2.(i2) (d + 1) else Array.blit a i1 dst (d + 1) (src1r - i1) end in loop src1ofs a.(src1ofs) src2ofs src2.(src2ofs) dstofs; in let rec sortto srcofs dst dstofs len = assert (len > 0); if len = 1 then dst.(dstofs) <- a.(srcofs) else begin let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs + l1) dst (dstofs + l1) l2; sortto srcofs a (srcofs + l2) l1; merge (srcofs + l2) l1 dst (dstofs + l1) l2 dst dstofs; end; in let l = Array.length a in if l <= 1 then () else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let amerge_1b cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let src1r = src1ofs + src1len and src2r = src2ofs + src2len in let rec loop i1 s1 i2 s2 d = if cmp s1 s2 <= 0 then begin dst.(d) <- s1; let i1 = i1 + 1 in if i1 < src1r then loop i1 a.(i1) i2 s2 (d + 1) else Array.blit src2 i2 dst (d + 1) (src2r - i2) end else begin dst.(d) <- s2; let i2 = i2 + 1 in if i2 < src2r then loop i1 s1 i2 src2.(i2) (d + 1) else Array.blit a i1 dst (d + 1) (src1r - i1) end in loop src1ofs a.(src1ofs) src2ofs src2.(src2ofs) dstofs; in let rec sortto srcofs dst dstofs len = assert (len > 0); if len = 1 then dst.(dstofs) <- a.(srcofs) else if len = 2 then begin if cmp a.(srcofs) a.(srcofs+1) <= 0 then begin dst.(dstofs) <- a.(srcofs); dst.(dstofs+1) <- a.(srcofs+1); end else begin dst.(dstofs) <- a.(srcofs+1); dst.(dstofs+1) <- a.(srcofs); end; end else begin let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs + l1) dst (dstofs + l1) l2; sortto srcofs a (srcofs + l2) l1; merge (srcofs + l2) l1 dst (dstofs + l1) l2 dst dstofs; end; in let l = Array.length a in if l <= 1 then () else if l = 2 then begin if cmp a.(0) a.(1) > 0 then begin let e = a.(0) in a.(0) <- a.(1); a.(1) <- e; end; end else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 3;; let amerge_1c cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let src1r = src1ofs + src1len and src2r = src2ofs + src2len in let rec loop i1 s1 i2 s2 d = if cmp s1 s2 <= 0 then begin dst.(d) <- s1; let i1 = i1 + 1 in if i1 < src1r then loop i1 a.(i1) i2 s2 (d + 1) else Array.blit src2 i2 dst (d + 1) (src2r - i2) end else begin dst.(d) <- s2; let i2 = i2 + 1 in if i2 < src2r then loop i1 s1 i2 src2.(i2) (d + 1) else Array.blit a i1 dst (d + 1) (src1r - i1) end in loop src1ofs a.(src1ofs) src2ofs src2.(src2ofs) dstofs; in let isortto srcofs dst dstofs len = for i = 0 to len - 1 do let e = a.(srcofs + i) in let j = ref (dstofs + i - 1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else begin let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs + l1) dst (dstofs + l1) l2; sortto srcofs a (srcofs + l2) l1; merge (srcofs + l2) l1 dst (dstofs + l1) l2 dst dstofs; end; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 4;; let amerge_1d cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let src1r = src1ofs + src1len and src2r = src2ofs + src2len in let rec loop i1 s1 i2 s2 d = if cmp s1 s2 <= 0 then begin dst.(d) <- s1; let i1 = i1 + 1 in if i1 < src1r then loop i1 a.(i1) i2 s2 (d + 1) else Array.blit src2 i2 dst (d + 1) (src2r - i2) end else begin dst.(d) <- s2; let i2 = i2 + 1 in if i2 < src2r then loop i1 s1 i2 src2.(i2) (d + 1) else Array.blit a i1 dst (d + 1) (src1r - i1) end in loop src1ofs a.(src1ofs) src2ofs src2.(src2ofs) dstofs; in let isortto srcofs dst dstofs len = for i = 0 to len - 1 do let e = a.(srcofs + i) in let j = ref (dstofs + i - 1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else begin let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs + l1) dst (dstofs + l1) l2; sortto srcofs a (srcofs + l2) l1; merge (srcofs + l2) l1 dst (dstofs + l1) l2 dst dstofs; end; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 5;; let amerge_1e cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let src1r = src1ofs + src1len and src2r = src2ofs + src2len in let rec loop i1 s1 i2 s2 d = if cmp s1 s2 <= 0 then begin dst.(d) <- s1; let i1 = i1 + 1 in if i1 < src1r then loop i1 a.(i1) i2 s2 (d + 1) else Array.blit src2 i2 dst (d + 1) (src2r - i2) end else begin dst.(d) <- s2; let i2 = i2 + 1 in if i2 < src2r then loop i1 s1 i2 src2.(i2) (d + 1) else Array.blit a i1 dst (d + 1) (src1r - i1) end in loop src1ofs a.(src1ofs) src2ofs src2.(src2ofs) dstofs; in let isortto srcofs dst dstofs len = for i = 0 to len - 1 do let e = a.(srcofs + i) in let j = ref (dstofs + i - 1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else begin let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs + l1) dst (dstofs + l1) l2; sortto srcofs a (srcofs + l2) l1; merge (srcofs + l2) l1 dst (dstofs + l1) l2 dst dstofs; end; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 6;; let amerge_1f cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let src1r = src1ofs + src1len and src2r = src2ofs + src2len in let rec loop i1 s1 i2 s2 d = if cmp s1 s2 <= 0 then begin dst.(d) <- s1; let i1 = i1 + 1 in if i1 < src1r then loop i1 a.(i1) i2 s2 (d + 1) else Array.blit src2 i2 dst (d + 1) (src2r - i2) end else begin dst.(d) <- s2; let i2 = i2 + 1 in if i2 < src2r then loop i1 s1 i2 src2.(i2) (d + 1) else Array.blit a i1 dst (d + 1) (src1r - i1) end in loop src1ofs a.(src1ofs) src2ofs src2.(src2ofs) dstofs; in let isortto srcofs dst dstofs len = for i = 0 to len - 1 do let e = a.(srcofs + i) in let j = ref (dstofs + i - 1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else begin let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs + l1) dst (dstofs + l1) l2; sortto srcofs a (srcofs + l2) l1; merge (srcofs + l2) l1 dst (dstofs + l1) l2 dst dstofs; end; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 7;; let amerge_1g cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let src1r = src1ofs + src1len and src2r = src2ofs + src2len in let rec loop i1 s1 i2 s2 d = if cmp s1 s2 <= 0 then begin dst.(d) <- s1; let i1 = i1 + 1 in if i1 < src1r then loop i1 a.(i1) i2 s2 (d + 1) else Array.blit src2 i2 dst (d + 1) (src2r - i2) end else begin dst.(d) <- s2; let i2 = i2 + 1 in if i2 < src2r then loop i1 s1 i2 src2.(i2) (d + 1) else Array.blit a i1 dst (d + 1) (src1r - i1) end in loop src1ofs a.(src1ofs) src2ofs src2.(src2ofs) dstofs; in let isortto srcofs dst dstofs len = for i = 0 to len - 1 do let e = a.(srcofs + i) in let j = ref (dstofs + i - 1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else begin let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs + l1) dst (dstofs + l1) l2; sortto srcofs a (srcofs + l2) l1; merge (srcofs + l2) l1 dst (dstofs + l1) l2 dst dstofs; end; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 8;; let amerge_1h cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let src1r = src1ofs + src1len and src2r = src2ofs + src2len in let rec loop i1 s1 i2 s2 d = if cmp s1 s2 <= 0 then begin dst.(d) <- s1; let i1 = i1 + 1 in if i1 < src1r then loop i1 a.(i1) i2 s2 (d + 1) else Array.blit src2 i2 dst (d + 1) (src2r - i2) end else begin dst.(d) <- s2; let i2 = i2 + 1 in if i2 < src2r then loop i1 s1 i2 src2.(i2) (d + 1) else Array.blit a i1 dst (d + 1) (src1r - i1) end in loop src1ofs a.(src1ofs) src2ofs src2.(src2ofs) dstofs; in let isortto srcofs dst dstofs len = for i = 0 to len - 1 do let e = a.(srcofs + i) in let j = ref (dstofs + i - 1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else begin let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs + l1) dst (dstofs + l1) l2; sortto srcofs a (srcofs + l2) l1; merge (srcofs + l2) l1 dst (dstofs + l1) l2 dst dstofs; end; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 9;; let amerge_1i cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let src1r = src1ofs + src1len and src2r = src2ofs + src2len in let rec loop i1 s1 i2 s2 d = if cmp s1 s2 <= 0 then begin dst.(d) <- s1; let i1 = i1 + 1 in if i1 < src1r then loop i1 a.(i1) i2 s2 (d + 1) else Array.blit src2 i2 dst (d + 1) (src2r - i2) end else begin dst.(d) <- s2; let i2 = i2 + 1 in if i2 < src2r then loop i1 s1 i2 src2.(i2) (d + 1) else Array.blit a i1 dst (d + 1) (src1r - i1) end in loop src1ofs a.(src1ofs) src2ofs src2.(src2ofs) dstofs; in let isortto srcofs dst dstofs len = for i = 0 to len - 1 do let e = a.(srcofs + i) in let j = ref (dstofs + i - 1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else begin let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs + l1) dst (dstofs + l1) l2; sortto srcofs a (srcofs + l2) l1; merge (srcofs + l2) l1 dst (dstofs + l1) l2 dst dstofs; end; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 10;; let amerge_1j cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let src1r = src1ofs + src1len and src2r = src2ofs + src2len in let rec loop i1 s1 i2 s2 d = if cmp s1 s2 <= 0 then begin dst.(d) <- s1; let i1 = i1 + 1 in if i1 < src1r then loop i1 a.(i1) i2 s2 (d + 1) else Array.blit src2 i2 dst (d + 1) (src2r - i2) end else begin dst.(d) <- s2; let i2 = i2 + 1 in if i2 < src2r then loop i1 s1 i2 src2.(i2) (d + 1) else Array.blit a i1 dst (d + 1) (src1r - i1) end in loop src1ofs a.(src1ofs) src2ofs src2.(src2ofs) dstofs; in let isortto srcofs dst dstofs len = for i = 0 to len - 1 do let e = a.(srcofs + i) in let j = ref (dstofs + i - 1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else begin let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs + l1) dst (dstofs + l1) l2; sortto srcofs a (srcofs + l2) l1; merge (srcofs + l2) l1 dst (dstofs + l1) l2 dst dstofs; end; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; (* FIXME try: *) (* list->array->list direct and array->list->array direct *) (* overhead = 1/3, 1/4, etc. *) (* overhead = sqrt (n) *) (* overhead = n/3 up to 30k, 30k up to 900M, sqrt (n) beyond *) (************************************************************************) (* merge sort on arrays, merge with loop *) (* cutoff = 1 *) let amerge_3a cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let i1 = ref src1ofs and i2 = ref src2ofs and d = ref dstofs and src1r = src1ofs + src1len and src2r = src2ofs + src2len in while !i1 < src1r && !i2 < src2r do let s1 = a.(!i1) and s2 = src2.(!i2) in if cmp s1 s2 <= 0 then begin dst.(!d) <- s1; incr i1; end else begin dst.(!d) <- s2; incr i2; end; incr d; done; if !i1 < src1r then Array.blit a !i1 dst !d (src1r - !i1) else Array.blit src2 !i2 dst !d (src2r - !i2) in let rec sortto srcofs dst dstofs len = assert (len > 0); if len = 1 then dst.(dstofs) <- a.(srcofs) else let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs+l1) dst (dstofs+l1) l2; sortto srcofs a (srcofs+l2) l1; merge (srcofs+l2) l1 dst (dstofs+l1) l2 dst dstofs; in let l = Array.length a in if l <= 1 then () else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let amerge_3b cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let i1 = ref src1ofs and i2 = ref src2ofs and d = ref dstofs and src1r = src1ofs + src1len and src2r = src2ofs + src2len in while !i1 < src1r && !i2 < src2r do let s1 = a.(!i1) and s2 = src2.(!i2) in if cmp s1 s2 <= 0 then begin dst.(!d) <- s1; incr i1; end else begin dst.(!d) <- s2; incr i2; end; incr d; done; if !i1 < src1r then Array.blit a !i1 dst !d (src1r - !i1) else Array.blit src2 !i2 dst !d (src2r - !i2) in let rec sortto srcofs dst dstofs len = assert (len > 0); if len = 1 then dst.(dstofs) <- a.(srcofs) else if len = 2 then begin if cmp a.(srcofs) a.(srcofs+1) <= 0 then begin dst.(dstofs) <- a.(srcofs); dst.(dstofs+1) <- a.(srcofs+1); end else begin dst.(dstofs) <- a.(srcofs+1); dst.(dstofs+1) <- a.(srcofs); end end else begin let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs+l1) dst (dstofs+l1) l2; sortto srcofs a (srcofs+l2) l1; merge (srcofs+l2) l1 dst (dstofs+l1) l2 dst dstofs; end in let l = Array.length a in if l <= 1 then () else if l = 2 then begin if cmp a.(0) a.(1) > 0 then begin let e = a.(0) in a.(0) <- a.(1); a.(1) <- e; end; end else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 3;; let amerge_3c cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let i1 = ref src1ofs and i2 = ref src2ofs and d = ref dstofs and src1r = src1ofs + src1len and src2r = src2ofs + src2len in while !i1 < src1r && !i2 < src2r do let s1 = a.(!i1) and s2 = src2.(!i2) in if cmp s1 s2 <= 0 then begin dst.(!d) <- s1; incr i1; end else begin dst.(!d) <- s2; incr i2; end; incr d; done; if !i1 < src1r then Array.blit a !i1 dst !d (src1r - !i1) else Array.blit src2 !i2 dst !d (src2r - !i2) in let isortto srcofs dst dstofs len = for i = 0 to len-1 do let e = a.(srcofs+i) in let j = ref (dstofs+i-1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs+l1) dst (dstofs+l1) l2; sortto srcofs a (srcofs+l2) l1; merge (srcofs+l2) l1 dst (dstofs+l1) l2 dst dstofs; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 4;; let amerge_3d cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let i1 = ref src1ofs and i2 = ref src2ofs and d = ref dstofs and src1r = src1ofs + src1len and src2r = src2ofs + src2len in while !i1 < src1r && !i2 < src2r do let s1 = a.(!i1) and s2 = src2.(!i2) in if cmp s1 s2 <= 0 then begin dst.(!d) <- s1; incr i1; end else begin dst.(!d) <- s2; incr i2; end; incr d; done; if !i1 < src1r then Array.blit a !i1 dst !d (src1r - !i1) else Array.blit src2 !i2 dst !d (src2r - !i2) in let isortto srcofs dst dstofs len = for i = 0 to len-1 do let e = a.(srcofs+i) in let j = ref (dstofs+i-1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs+l1) dst (dstofs+l1) l2; sortto srcofs a (srcofs+l2) l1; merge (srcofs+l2) l1 dst (dstofs+l1) l2 dst dstofs; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 5;; let amerge_3e cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let i1 = ref src1ofs and i2 = ref src2ofs and d = ref dstofs and src1r = src1ofs + src1len and src2r = src2ofs + src2len in while !i1 < src1r && !i2 < src2r do let s1 = a.(!i1) and s2 = src2.(!i2) in if cmp s1 s2 <= 0 then begin dst.(!d) <- s1; incr i1; end else begin dst.(!d) <- s2; incr i2; end; incr d; done; if !i1 < src1r then Array.blit a !i1 dst !d (src1r - !i1) else Array.blit src2 !i2 dst !d (src2r - !i2) in let isortto srcofs dst dstofs len = for i = 0 to len-1 do let e = a.(srcofs+i) in let j = ref (dstofs+i-1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs+l1) dst (dstofs+l1) l2; sortto srcofs a (srcofs+l2) l1; merge (srcofs+l2) l1 dst (dstofs+l1) l2 dst dstofs; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 6;; let amerge_3f cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let i1 = ref src1ofs and i2 = ref src2ofs and d = ref dstofs and src1r = src1ofs + src1len and src2r = src2ofs + src2len in while !i1 < src1r && !i2 < src2r do let s1 = a.(!i1) and s2 = src2.(!i2) in if cmp s1 s2 <= 0 then begin dst.(!d) <- s1; incr i1; end else begin dst.(!d) <- s2; incr i2; end; incr d; done; if !i1 < src1r then Array.blit a !i1 dst !d (src1r - !i1) else Array.blit src2 !i2 dst !d (src2r - !i2) in let isortto srcofs dst dstofs len = for i = 0 to len-1 do let e = a.(srcofs+i) in let j = ref (dstofs+i-1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs+l1) dst (dstofs+l1) l2; sortto srcofs a (srcofs+l2) l1; merge (srcofs+l2) l1 dst (dstofs+l1) l2 dst dstofs; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 7;; let amerge_3g cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let i1 = ref src1ofs and i2 = ref src2ofs and d = ref dstofs and src1r = src1ofs + src1len and src2r = src2ofs + src2len in while !i1 < src1r && !i2 < src2r do let s1 = a.(!i1) and s2 = src2.(!i2) in if cmp s1 s2 <= 0 then begin dst.(!d) <- s1; incr i1; end else begin dst.(!d) <- s2; incr i2; end; incr d; done; if !i1 < src1r then Array.blit a !i1 dst !d (src1r - !i1) else Array.blit src2 !i2 dst !d (src2r - !i2) in let isortto srcofs dst dstofs len = for i = 0 to len-1 do let e = a.(srcofs+i) in let j = ref (dstofs+i-1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs+l1) dst (dstofs+l1) l2; sortto srcofs a (srcofs+l2) l1; merge (srcofs+l2) l1 dst (dstofs+l1) l2 dst dstofs; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 8;; let amerge_3h cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let i1 = ref src1ofs and i2 = ref src2ofs and d = ref dstofs and src1r = src1ofs + src1len and src2r = src2ofs + src2len in while !i1 < src1r && !i2 < src2r do let s1 = a.(!i1) and s2 = src2.(!i2) in if cmp s1 s2 <= 0 then begin dst.(!d) <- s1; incr i1; end else begin dst.(!d) <- s2; incr i2; end; incr d; done; if !i1 < src1r then Array.blit a !i1 dst !d (src1r - !i1) else Array.blit src2 !i2 dst !d (src2r - !i2) in let isortto srcofs dst dstofs len = for i = 0 to len-1 do let e = a.(srcofs+i) in let j = ref (dstofs+i-1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs+l1) dst (dstofs+l1) l2; sortto srcofs a (srcofs+l2) l1; merge (srcofs+l2) l1 dst (dstofs+l1) l2 dst dstofs; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 9;; let amerge_3i cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let i1 = ref src1ofs and i2 = ref src2ofs and d = ref dstofs and src1r = src1ofs + src1len and src2r = src2ofs + src2len in while !i1 < src1r && !i2 < src2r do let s1 = a.(!i1) and s2 = src2.(!i2) in if cmp s1 s2 <= 0 then begin dst.(!d) <- s1; incr i1; end else begin dst.(!d) <- s2; incr i2; end; incr d; done; if !i1 < src1r then Array.blit a !i1 dst !d (src1r - !i1) else Array.blit src2 !i2 dst !d (src2r - !i2) in let isortto srcofs dst dstofs len = for i = 0 to len-1 do let e = a.(srcofs+i) in let j = ref (dstofs+i-1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs+l1) dst (dstofs+l1) l2; sortto srcofs a (srcofs+l2) l1; merge (srcofs+l2) l1 dst (dstofs+l1) l2 dst dstofs; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; let cutoff = 10;; let amerge_3j cmp a = let merge src1ofs src1len src2 src2ofs src2len dst dstofs = let i1 = ref src1ofs and i2 = ref src2ofs and d = ref dstofs and src1r = src1ofs + src1len and src2r = src2ofs + src2len in while !i1 < src1r && !i2 < src2r do let s1 = a.(!i1) and s2 = src2.(!i2) in if cmp s1 s2 <= 0 then begin dst.(!d) <- s1; incr i1; end else begin dst.(!d) <- s2; incr i2; end; incr d; done; if !i1 < src1r then Array.blit a !i1 dst !d (src1r - !i1) else Array.blit src2 !i2 dst !d (src2r - !i2) in let isortto srcofs dst dstofs len = for i = 0 to len-1 do let e = a.(srcofs+i) in let j = ref (dstofs+i-1) in while (!j >= dstofs && cmp dst.(!j) e > 0) do dst.(!j + 1) <- dst.(!j); decr j; done; dst.(!j + 1) <- e; done; in let rec sortto srcofs dst dstofs len = if len <= cutoff then isortto srcofs dst dstofs len else let l1 = len / 2 in let l2 = len - l1 in sortto (srcofs+l1) dst (dstofs+l1) l2; sortto srcofs a (srcofs+l2) l1; merge (srcofs+l2) l1 dst (dstofs+l1) l2 dst dstofs; in let l = Array.length a in if l <= cutoff then isortto 0 a 0 l else begin let l1 = l / 2 in let l2 = l - l1 in let t = Array.make l2 a.(0) in sortto l1 t 0 l2; sortto 0 a l2 l1; merge l2 l1 t 0 l2 a 0; end; ;; (* FIXME try bottom-up merge on arrays? *) (************************************************************************) (* Shell sort on arrays *) let ashell_1 cmp a = let l = Array.length a in let step = ref 1 in while !step < l do step := !step * 3 + 1; done; step := !step / 3; while !step > 0 do for j = !step to l-1 do let e = a.(j) in let k = ref (j - !step) in let k1 = ref j in while !k >= 0 && cmp a.(!k) e > 0 do a.(!k1) <- a.(!k); k1 := !k; k := !k - !step; done; a.(!k1) <- e; done; step := !step / 3; done; ;; let ashell_2 cmp a = let l = Array.length a in let step = ref 1 in while !step < l do step := !step * 3 + 1; done; step := !step / 3; while !step > 0 do for j = !step to l-1 do let e = a.(j) in let k = ref (j - !step) in while !k >= 0 && cmp a.(!k) e > 0 do a.(!k + !step) <- a.(!k); k := !k - !step; done; a.(!k + !step) <- e; done; step := !step / 3; done; ;; let ashell_3 cmp a = let l = Array.length a in let step = ref 1 in while !step < l do step := !step * 3 + 1; done; step := !step / 3; while !step > 0 do for i = 0 to !step - 1 do let j = ref (i + !step) in while !j < l do let e = ref a.(!j) in let k = ref (!j - !step) in if cmp !e a.(i) < 0 then begin let x = !e in e := a.(i); a.(i) <- x; end; while cmp a.(!k) !e > 0 do a.(!k + !step) <- a.(!k); k := !k - !step; done; a.(!k + !step) <- !e; j := !j + !step; done; done; step := !step / 3; done; ;; let force = Lazy.force;; type iilist = Cons of int * iilist Lazy.t;; let rec mult n (Cons (x,l)) = Cons (n*x, lazy (mult n (force l))) let rec merge (Cons (x1, t1) as l1) (Cons (x2, t2) as l2) = if x1 = x2 then Cons (x1, lazy (merge (force t1) (force t2))) else if x1 < x2 then Cons (x1, lazy (merge (force t1) l2)) else Cons (x2, lazy (merge l1 (force t2))) ;; let rec scale = Cons (1, lazy (merge (mult 2 scale) (mult 3 scale)));; let ashell_4 cmp a = let l = Array.length a in let rec loop1 accu (Cons (x, t)) = if x > l then accu else loop1 (x::accu) (force t) in let sc = loop1 [] scale in let rec loop2 = function | [] -> () | step::t -> for i = 0 to step - 1 do let j = ref (i + step) in while !j < l do let e = a.(!j) in let k = ref (!j - step) in while !k >= 0 && cmp a.(!k) e > 0 do a.(!k + step) <- a.(!k); k := !k - step; done; a.(!k + step) <- e; j := !j + step; done; done; loop2 t; in loop2 sc; ;; (************************************************************************) (* Quicksort on arrays *) let cutoff = 1;; let aquick_1a cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref (r - 1) in while !p2 <= !p3 do let e = a.(!p3) in let c = cmp e pivot in if c > 0 then begin decr p3; end else if c < 0 then begin a.(!p3) <- a.(!p2); a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end else begin a.(!p3) <- a.(!p2); a.(!p2) <- e; incr p2; end; done; incr p3; let len1 = !p1 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p1; qsort !p3 r) else (qsort !p3 r; qsort l !p1) end else qsort l !p1 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 1 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 2;; let aquick_1b cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref (r - 1) in while !p2 <= !p3 do let e = a.(!p3) in let c = cmp e pivot in if c > 0 then begin decr p3; end else if c < 0 then begin a.(!p3) <- a.(!p2); a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end else begin a.(!p3) <- a.(!p2); a.(!p2) <- e; incr p2; end; done; incr p3; let len1 = !p1 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p1; qsort !p3 r) else (qsort !p3 r; qsort l !p1) end else qsort l !p1 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 1 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 3;; let aquick_1c cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref (r - 1) in while !p2 <= !p3 do let e = a.(!p3) in let c = cmp e pivot in if c > 0 then begin decr p3; end else if c < 0 then begin a.(!p3) <- a.(!p2); a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end else begin a.(!p3) <- a.(!p2); a.(!p2) <- e; incr p2; end; done; incr p3; let len1 = !p1 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p1; qsort !p3 r) else (qsort !p3 r; qsort l !p1) end else qsort l !p1 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 1 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 4;; let aquick_1d cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref (r - 1) in while !p2 <= !p3 do let e = a.(!p3) in let c = cmp e pivot in if c > 0 then begin decr p3; end else if c < 0 then begin a.(!p3) <- a.(!p2); a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end else begin a.(!p3) <- a.(!p2); a.(!p2) <- e; incr p2; end; done; incr p3; let len1 = !p1 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p1; qsort !p3 r) else (qsort !p3 r; qsort l !p1) end else qsort l !p1 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 1 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 5;; let aquick_1e cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref (r - 1) in while !p2 <= !p3 do let e = a.(!p3) in let c = cmp e pivot in if c > 0 then begin decr p3; end else if c < 0 then begin a.(!p3) <- a.(!p2); a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end else begin a.(!p3) <- a.(!p2); a.(!p2) <- e; incr p2; end; done; incr p3; let len1 = !p1 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p1; qsort !p3 r) else (qsort !p3 r; qsort l !p1) end else qsort l !p1 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 1 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 6;; let aquick_1f cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref (r - 1) in while !p2 <= !p3 do let e = a.(!p3) in let c = cmp e pivot in if c > 0 then begin decr p3; end else if c < 0 then begin a.(!p3) <- a.(!p2); a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end else begin a.(!p3) <- a.(!p2); a.(!p2) <- e; incr p2; end; done; incr p3; let len1 = !p1 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p1; qsort !p3 r) else (qsort !p3 r; qsort l !p1) end else qsort l !p1 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 1 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 7;; let aquick_1g cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref (r - 1) in while !p2 <= !p3 do let e = a.(!p3) in let c = cmp e pivot in if c > 0 then begin decr p3; end else if c < 0 then begin a.(!p3) <- a.(!p2); a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end else begin a.(!p3) <- a.(!p2); a.(!p2) <- e; incr p2; end; done; incr p3; let len1 = !p1 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p1; qsort !p3 r) else (qsort !p3 r; qsort l !p1) end else qsort l !p1 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 1 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 1;; let aquick_2a cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end else begin incr p2; end; done; let len1 = !p1 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p1; qsort !p3 r) else (qsort !p3 r; qsort l !p1) end else qsort l !p1 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 2;; let aquick_2b cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end else begin incr p2; end; done; let len1 = !p1 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p1; qsort !p3 r) else (qsort !p3 r; qsort l !p1) end else qsort l !p1 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 3;; let aquick_2c cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end else begin incr p2; end; done; let len1 = !p1 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p1; qsort !p3 r) else (qsort !p3 r; qsort l !p1) end else qsort l !p1 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 4;; let aquick_2d cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end else begin incr p2; end; done; let len1 = !p1 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p1; qsort !p3 r) else (qsort !p3 r; qsort l !p1) end else qsort l !p1 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 5;; let aquick_2e cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end else begin incr p2; end; done; let len1 = !p1 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p1; qsort !p3 r) else (qsort !p3 r; qsort l !p1) end else qsort l !p1 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 6;; let aquick_2f cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end else begin incr p2; end; done; let len1 = !p1 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p1; qsort !p3 r) else (qsort !p3 r; qsort l !p1) end else qsort l !p1 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 7;; let aquick_2g cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end else begin incr p2; end; done; let len1 = !p1 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p1; qsort !p3 r) else (qsort !p3 r; qsort l !p1) end else qsort l !p1 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 1;; let aquick_3a cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin incr p2; end else begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end done; while !p1 > l do decr p1; decr p2; let e = a.(!p1) in a.(!p1) <- a.(!p2); a.(!p2) <- e; done; let len1 = !p2 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p2; qsort !p3 r) else (qsort !p3 r; qsort l !p2) end else qsort l !p2 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 2;; let aquick_3b cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin incr p2; end else begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end done; while !p1 > l do decr p1; decr p2; let e = a.(!p1) in a.(!p1) <- a.(!p2); a.(!p2) <- e; done; let len1 = !p2 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p2; qsort !p3 r) else (qsort !p3 r; qsort l !p2) end else qsort l !p2 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 3;; let aquick_3c cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin incr p2; end else begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end done; while !p1 > l do decr p1; decr p2; let e = a.(!p1) in a.(!p1) <- a.(!p2); a.(!p2) <- e; done; let len1 = !p2 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p2; qsort !p3 r) else (qsort !p3 r; qsort l !p2) end else qsort l !p2 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 4;; let aquick_3d cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin incr p2; end else begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end done; while !p1 > l do decr p1; decr p2; let e = a.(!p1) in a.(!p1) <- a.(!p2); a.(!p2) <- e; done; let len1 = !p2 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p2; qsort !p3 r) else (qsort !p3 r; qsort l !p2) end else qsort l !p2 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 5;; let aquick_3e cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin incr p2; end else begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end done; while !p1 > l do decr p1; decr p2; let e = a.(!p1) in a.(!p1) <- a.(!p2); a.(!p2) <- e; done; let len1 = !p2 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p2; qsort !p3 r) else (qsort !p3 r; qsort l !p2) end else qsort l !p2 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 6;; let aquick_3f cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin incr p2; end else begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end done; while !p1 > l do decr p1; decr p2; let e = a.(!p1) in a.(!p1) <- a.(!p2); a.(!p2) <- e; done; let len1 = !p2 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p2; qsort !p3 r) else (qsort !p3 r; qsort l !p2) end else qsort l !p2 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 7;; let aquick_3g cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin incr p2; end else begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end done; while !p1 > l do decr p1; decr p2; let e = a.(!p1) in a.(!p1) <- a.(!p2); a.(!p2) <- e; done; let len1 = !p2 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p2; qsort !p3 r) else (qsort !p3 r; qsort l !p2) end else qsort l !p2 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 8;; let aquick_3h cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin incr p2; end else begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end done; while !p1 > l do decr p1; decr p2; let e = a.(!p1) in a.(!p1) <- a.(!p2); a.(!p2) <- e; done; let len1 = !p2 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p2; qsort !p3 r) else (qsort !p3 r; qsort l !p2) end else qsort l !p2 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 9;; let aquick_3i cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin incr p2; end else begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end done; while !p1 > l do decr p1; decr p2; let e = a.(!p1) in a.(!p1) <- a.(!p2); a.(!p2) <- e; done; let len1 = !p2 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p2; qsort !p3 r) else (qsort !p3 r; qsort l !p2) end else qsort l !p2 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; let cutoff = 10;; let aquick_3j cmp a = let rec qsort l r = (* ASSUMES r - l >= 2 *) let m = (l + r) / 2 in let al = a.(l) and am = a.(m) and ar = a.(r - 1) in let pivot = if cmp al am <= 0 then if cmp am ar <= 0 then am else if cmp al ar <= 0 then ar else al else if cmp al ar <= 0 then al else if cmp am ar <= 0 then ar else am in let p1 = ref l and p2 = ref l and p3 = ref r in while !p2 < !p3 do let e = a.(!p2) in let c = cmp e pivot in if c > 0 then begin decr p3; a.(!p2) <- a.(!p3); a.(!p3) <- e; end else if c < 0 then begin incr p2; end else begin a.(!p2) <- a.(!p1); a.(!p1) <- e; incr p1; incr p2; end done; while !p1 > l do decr p1; decr p2; let e = a.(!p1) in a.(!p1) <- a.(!p2); a.(!p2) <- e; done; let len1 = !p2 - l and len2 = r - !p3 in if len1 > cutoff then if len2 > cutoff then begin if len1 < len2 then (qsort l !p2; qsort !p3 r) else (qsort !p3 r; qsort l !p2) end else qsort l !p2 else if len2 > cutoff then qsort !p3 r; in let l = Array.length a in if l > 1 then begin qsort 0 l; let mini = ref 0 in for i = 0 to (min l cutoff) - 1 do if cmp a.(i) a.(!mini) < 0 then mini := i; done; let e = a.(0) in a.(0) <- a.(!mini); a.(!mini) <- e; for i = 1 to l - 1 do let e = a.(i) in let j = ref (i - 1) in while cmp a.(!j) e > 0 do a.(!j + 1) <- a.(!j); decr j; done; a.(!j + 1) <- e; done; end; ;; (************************************************************************) (* Heap sort on arrays (top-down, ternary) *) let aheap_1 cmp a = let l = ref (Array.length a) in let l3 = ref ((!l + 1) / 3) in (* l3 is the first element without sons *) let maxson i = (* ASSUMES i < !l3 *) let i31 = i+i+i+1 in let x = ref i31 in if i31+2 < !l then begin if cmp a.(i31) a.(i31+1) < 0 then x := i31+1; if cmp a.(!x) a.(i31+2) < 0 then x := i31+2; !x end else begin if i31+1 < !l && cmp a.(i31) a.(i31+1) < 0 then i31+1 else i31 end in let rec trickledown i e = (* ASSUMES i < !l3 *) let j = maxson i in if cmp a.(j) e > 0 then begin a.(i) <- a.(j); if j < !l3 then trickledown j e else a.(j) <- e; end else begin a.(i) <- e; end; in for i = !l3 - 1 downto 0 do trickledown i a.(i); done; let m = ref (!l + 1 - 3 * !l3) in while !l > 2 do decr l; if !m = 0 then (m := 2; decr l3) else decr m; let e = a.(!l) in a.(!l) <- a.(0); trickledown 0 e; done; if !l > 1 then begin let e = a.(1) in a.(1) <- a.(0); a.(0) <- e; end; ;; (************************************************************************) (* Heap sort on arrays (top-down, binary) *) (* FIXME try partial application of trickledown (merge with down) *) (* FIXME try to expand maxson in trickledown; delete the exception. *) let aheap_2 cmp a = let maxson l i e = let i21 = i + i + 1 in if i21 + 1 < l && cmp a.(i21) a.(i21+1) < 0 then i21 + 1 else if i21 < l then i21 else (a.(i) <- e; raise Exit) in let rec trickledown l i e = let j = maxson l i e in if cmp a.(j) e > 0 then begin a.(i) <- a.(j); trickledown l j e; end else begin a.(i) <- e; end; in let down l i e = try trickledown l i e with Exit -> () in let l = Array.length a in for i = l / 2 -1 downto 0 do down l i a.(i); done; for i = l - 1 downto 1 do let e = a.(i) in a.(i) <- a.(0); down i 0 e; done; ;; (************************************************************************) (* Heap sort on arrays (bottom-up, ternary) *) exception Bottom of int;; let aheap_3 cmp a = let maxson l i = let i31 = i+i+i+1 in let x = ref i31 in if i31+2 < l then begin if cmp a.(i31) a.(i31+1) < 0 then x := i31+1; if cmp a.(!x) a.(i31+2) < 0 then x := i31+2; !x end else if i31+1 < l && cmp a.(i31) a.(i31+1) < 0 then i31+1 else if i31 < l then i31 else raise (Bottom i) in let rec trickledown l i e = let j = maxson l i in if cmp a.(j) e > 0 then begin a.(i) <- a.(j); trickledown l j e; end else begin a.(i) <- e; end; in let rec trickle l i e = try trickledown l i e with Bottom i -> a.(i) <- e in let rec bubbledown l i = let j = maxson l i in a.(i) <- a.(j); bubbledown l j; in let bubble l i = try bubbledown l i with Bottom i -> i in let rec trickleup i e = let father = (i - 1) / 3 in assert (i <> father); if cmp a.(father) e < 0 then begin a.(i) <- a.(father); if father > 0 then trickleup father e else a.(0) <- e; end else begin a.(i) <- e; end; in let l = Array.length a in for i = (l + 1) / 3 - 1 downto 0 do trickle l i a.(i); done; for i = l - 1 downto 2 do let e = a.(i) in a.(i) <- a.(0); trickleup (bubble i 0) e; done; if l > 1 then (let e = a.(1) in a.(1) <- a.(0); a.(0) <- e); ;; (************************************************************************) (* Heap sort on arrays (bottom-up, binary) *) let aheap_4 cmp a = let maxson l i = let i21 = i + i + 1 in if i21 + 1 < l && cmp a.(i21) a.(i21 + 1) < 0 then i21 + 1 else if i21 < l then i21 else raise (Bottom i) in let rec trickledown l i e = let j = maxson l i in if cmp a.(j) e > 0 then begin a.(i) <- a.(j); trickledown l j e; end else begin a.(i) <- e; end; in let trickle l i e = try trickledown l i e with Bottom i -> a.(i) <- e in let rec bubbledown l i = let j = maxson l i in a.(i) <- a.(j); bubbledown l j; in let bubble l i = try bubbledown l i with Bottom i -> i in let rec trickleup i e = let father = (i - 1) / 2 in assert (i <> father); if cmp a.(father) e < 0 then begin a.(i) <- a.(father); if father > 0 then trickleup father e else a.(0) <- e; end else begin a.(i) <- e; end; in let l = Array.length a in for i = l / 2 - 1 downto 0 do trickle l i a.(i); done; for i = l - 1 downto 2 do let e = a.(i) in a.(i) <- a.(0); trickleup (bubble i 0) e; done; if l > 1 then (let e = a.(1) in a.(1) <- a.(0); a.(0) <- e); ;; (************************************************************************) (* heap sort, top-down, ternary, recursive final loop *) let aheap_5 cmp a = let maxson l i = (* ASSUMES i < (l+1)/3 *) let i31 = i+i+i+1 in let x = ref i31 in if i31+2 < l then begin if cmp a.(i31) a.(i31+1) < 0 then x := i31+1; if cmp a.(!x) a.(i31+2) < 0 then x := i31+2; !x end else begin if i31+1 < l && cmp a.(i31) a.(i31+1) < 0 then i31+1 else i31 end in let rec trickledown l l3 i e = (* ASSUMES i < l3 *) let j = maxson l i in if cmp a.(j) e > 0 then begin a.(i) <- a.(j); if j < l3 then trickledown l l3 j e else a.(j) <- e; end else begin a.(i) <- e; end; in let l = Array.length a in let l3 = (l + 1) / 3 in for i = l3 - 1 downto 0 do trickledown l l3 i a.(i); done; let rec loop0 l l3 = let e = a.(l) in a.(l) <- a.(0); trickledown l l3 0 e; loop2 (l-1) (l3-1); and loop1 l l3 = let e = a.(l) in a.(l) <- a.(0); trickledown l l3 0 e; loop0 (l-1) l3; and loop2 l l3 = if l > 1 then begin let e = a.(l) in a.(l) <- a.(0); trickledown l l3 0 e; loop1 (l-1) l3; end else begin let e = a.(1) in a.(1) <- a.(0); a.(0) <- e; end; in if l > 1 then match l + 1 - 3 * l3 with | 0 -> loop2 (l-1) (l3-1); | 1 -> loop0 (l-1) l3; | 2 -> loop1 (l-1) l3; | _ -> assert false; ;; (************************************************************************) (* heap sort, top-down, ternary, with exception *) let aheap_6 cmp a = let maxson e l i = let i31 = i + i + i + 1 in let x = ref i31 in if i31+2 < l then begin if cmp a.(i31) a.(i31+1) < 0 then x := i31+1; if cmp a.(!x) a.(i31+2) < 0 then x := i31+2; !x end else begin if i31+1 < l && cmp a.(i31) a.(i31+1) < 0 then i31+1 else if i31 < l then i31 else (a.(i) <- e; raise Exit) end in let rec trickledown e l i = let j = maxson e l i in if cmp a.(j) e > 0 then begin a.(i) <- a.(j); trickledown e l j; end else begin a.(i) <- e; end; in let down e l i = try trickledown e l i with Exit -> (); in let l = Array.length a in for i = (l + 1) / 3 - 1 downto 0 do down a.(i) l i; done; for i = l - 1 downto 2 do let e = a.(i) in a.(i) <- a.(0); down e i 0; done; if l > 1 then (let e = a.(1) in a.(1) <- a.(0); a.(0) <- e); ;; (* FIXME try cutoff for heapsort *) (************************************************************************) (* Insertion sort with dichotomic search *) let ainsertion_1 cmp a = let rec dicho l r e = if l = r then l else begin let m = (l + r) / 2 in if cmp a.(m) e <= 0 then dicho (m+1) r e else dicho l m e end in for i = 1 to Array.length a - 1 do let e = a.(i) in let j = dicho 0 i e in Array.blit a j a (j + 1) (i - j); a.(j) <- e; done; ;; (************************************************************************) (* merge sort on lists via arrays *) let array_to_list_in_place a = let l = Array.length a in let rec loop accu n p = if p <= 0 then accu else begin if p = n then begin Obj.truncate (Obj.repr a) p; loop (a.(p-1) :: accu) (n-1000) (p-1) end else begin loop (a.(p-1) :: accu) n (p-1) end end in loop [] l l ;; let array_of_list l len = match l with | [] -> [| |] | h::t -> let a = Array.make len h in let rec loop i l = match l with | [] -> () | h::t -> a.(i) <- h; loop (i+1) t in loop 1 t; a ;; let lmerge_0a cmp l = let a = Array.of_list l in amerge_1e cmp a; array_to_list_in_place a ;; let lmerge_0b cmp l = let len = List.length l in if len > 256 then Gc.minor (); let a = array_of_list l len in amerge_1e cmp a; array_to_list_in_place a ;; let lshell_0 cmp l = let a = Array.of_list l in ashell_2 cmp a; array_to_list_in_place a ;; let lquick_0 cmp l = let a = Array.of_list l in aquick_3f cmp a; array_to_list_in_place a ;; (************************************************************************) (* merge sort on arrays via lists *) let amerge_0 cmp a = (* cutoff is not yet used *) let l = lmerge_4e cmp (Array.to_list a) in let rec loop i = function | [] -> () | h::t -> a.(i) <- h; loop (i + 1) t in loop 0 l ;; (************************************************************************) let lold = [ "Sort.list", Sort.list, true; "lmerge_3", lmerge_3, false; "lmerge_4a", lmerge_4a, true; ];; let lnew = [ "List.stable_sort", List.stable_sort, true; "lmerge_0a", lmerge_0a, true; "lmerge_0b", lmerge_0b, true; "lshell_0", lshell_0, false; "lquick_0", lquick_0, false; "lmerge_1a", lmerge_1a, true; "lmerge_1b", lmerge_1b, true; "lmerge_1c", lmerge_1c, true; "lmerge_1d", lmerge_1d, true; "lmerge_4b", lmerge_4b, true; "lmerge_4c", lmerge_4c, true; "lmerge_4d", lmerge_4d, true; "lmerge_4e", lmerge_4e, true; "lmerge_5a", lmerge_5a, true; "lmerge_5b", lmerge_5b, true; "lmerge_5c", lmerge_5c, true; "lmerge_5d", lmerge_5d, true; ];; let anew = [ "Array.stable_sort", Array.stable_sort, true; "Array.sort", Array.sort, false; "amerge_0", amerge_0, true; "amerge_1a", amerge_1a, true; "amerge_1b", amerge_1b, true; "amerge_1c", amerge_1c, true; "amerge_1d", amerge_1d, true; "amerge_1e", amerge_1e, true; "amerge_1f", amerge_1f, true; "amerge_1g", amerge_1g, true; "amerge_1h", amerge_1h, true; "amerge_1i", amerge_1i, true; "amerge_1j", amerge_1j, true; "amerge_3a", amerge_3a, true; "amerge_3b", amerge_3b, true; "amerge_3c", amerge_3c, true; "amerge_3d", amerge_3d, true; "amerge_3e", amerge_3e, true; "amerge_3f", amerge_3f, true; "amerge_3g", amerge_3g, true; "amerge_3h", amerge_3h, true; "amerge_3i", amerge_3i, true; "amerge_3j", amerge_3j, true; "ashell_1", ashell_1, false; "ashell_2", ashell_2, false; "ashell_3", ashell_3, false; "ashell_4", ashell_4, false; "aquick_1a", aquick_1a, false; "aquick_1b", aquick_1b, false; "aquick_1c", aquick_1c, false; "aquick_1d", aquick_1d, false; "aquick_1e", aquick_1e, false; "aquick_1f", aquick_1f, false; "aquick_1g", aquick_1g, false; "aquick_2a", aquick_2a, false; "aquick_2b", aquick_2b, false; "aquick_2c", aquick_2c, false; "aquick_2d", aquick_2d, false; "aquick_2e", aquick_2e, false; "aquick_2f", aquick_2f, false; "aquick_2g", aquick_2g, false; "aquick_3a", aquick_3a, false; "aquick_3b", aquick_3b, false; "aquick_3c", aquick_3c, false; "aquick_3d", aquick_3d, false; "aquick_3e", aquick_3e, false; "aquick_3f", aquick_3f, false; "aquick_3g", aquick_3g, false; "aquick_3h", aquick_3h, false; "aquick_3i", aquick_3i, false; "aquick_3j", aquick_3j, false; "aheap_1", aheap_1, false; "aheap_2", aheap_2, false; "aheap_3", aheap_3, false; "aheap_4", aheap_4, false; "aheap_5", aheap_5, false; "aheap_6", aheap_6, false; "ainsertion_1", ainsertion_1, true; ];; (************************************************************************) (* main program *) type mode = Test_std | Test | Bench1 | Bench2 | Bench3;; let size = ref 22 and mem = ref 0 and mode = ref Test_std and only = ref [] ;; let usage = "Usage: sorts [-size ] [-mem ]\n\ \032 [-seed ] [-test|-bench]" ;; let options = [ "-size", Arg.Int ((:=) size), " Maximum size for benchmarks (default 22)"; "-meg",Arg.Int ((:=) mem)," How many megabytes to preallocate (default 0)"; "-seed", Arg.Int ((:=) seed), " PRNG seed (default 0)"; "-teststd", Arg.Unit (fun () -> mode := Test_std), " Test stdlib (default)"; "-test", Arg.Unit (fun () -> mode := Test), " Select test mode"; "-bench1", Arg.Unit (fun () -> mode := Bench1), " Select bench mode 1"; "-bench2", Arg.Unit (fun () -> mode := Bench2), " Select bench mode 2"; "-bench3", Arg.Unit (fun () -> mode := Bench3), " Select bench mode 3"; "-fn", Arg.String (fun x -> only := x :: !only), " Test/Bench this function (default all)"; ];; let anonymous x = raise (Arg.Bad ("unrecognised option "^x));; let main () = Arg.parse options anonymous usage; Printf.printf "Command line arguments are:"; for i = 1 to Array.length Sys.argv - 1 do Printf.printf " %s" Sys.argv.(i); done; Printf.printf "\n"; ignore (String.create (1048576 * !mem)); Gc.full_major (); (* let a2l = Array.to_list in let l2ak x y = Array.of_list x in let id = fun x -> x in let fst x y = x in let snd x y = y in *) let benchonly f x y z t = match !only with | [] -> f x y z t | l -> if List.mem y l then f x y z t in let testonly x1 x2 x3 x4 x5 x6 = match !only with | [] -> test x1 x2 x3 x4 x5 x6 | l -> if List.mem x1 l then test x1 x2 x3 x4 x5 x6 in match !mode with | Test_std -> begin testonly "List.sort" false List.sort List.sort lc lc; testonly "List.stable_sort" true List.stable_sort List.stable_sort lc lc; testonly "Array.sort" false Array.sort Array.sort ac ac; testonly "Array.stable_sort" true Array.stable_sort Array.stable_sort ac ac; printf "Number of tests failed: %d\n" !numfailed; end; | Test -> begin for i = 0 to List.length lold - 1 do let (name, f1, stable) = List.nth lold i in let (_, f2, _) = List.nth lold i in testonly name stable f1 f2 ll ll; done; testonly "Sort.array" false Sort.array Sort.array al al; for i = 0 to List.length lnew - 1 do let (name, f1, stable) = List.nth lnew i in let (_, f2, _) = List.nth lnew i in testonly name stable f1 f2 lc lc; done; for i = 0 to List.length anew - 1 do let (name, f1, stable) = List.nth anew i in let (_, f2, _) = List.nth anew i in testonly name stable f1 f2 ac ac; done; printf "Number of tests failed: %d\n" !numfailed; end; | Bench1 -> begin let ba = fun x y z -> benchonly bench1a !size x y z and bb = fun x y z -> benchonly bench1b !size x y z and bc = fun x y z -> benchonly bench1c !size x y z in for i = 0 to List.length lold - 1 do let (name, f, stable) = List.nth lold i in ba name f ll; let (name, f, stable) = List.nth lold i in bb name f ll; let (name, f, stable) = List.nth lold i in bc name f ll; done; ba "Sort.array" Sort.array al; bb "Sort.array" Sort.array al; bc "Sort.array" Sort.array al; for i = 0 to List.length lnew - 1 do let (name, f, stable) = List.nth lnew i in ba name f lc; let (name, f, stable) = List.nth lnew i in bb name f lc; let (name, f, stable) = List.nth lnew i in bc name f lc; done; for i = 0 to List.length anew - 1 do let (name, f, stable) = List.nth anew i in ba name f ac; let (name, f, stable) = List.nth anew i in bb name f ac; let (name, f, stable) = List.nth anew i in bc name f ac; done; end; | Bench2 -> begin let b = fun x y z -> benchonly bench2 !size x y z in for i = 0 to List.length lold - 1 do let (name, f, stable) = List.nth lold i in b name f ll; done; b "Sort.array" Sort.array al; for i = 0 to List.length lnew - 1 do let (name, f, stable) = List.nth lnew i in b name f lc; done; for i = 0 to List.length anew - 1 do let (name, f, stable) = List.nth anew i in b name f ac; done; end; | Bench3 -> begin let ba = fun x y z -> benchonly bench3a !size x y z and bb = fun x y z -> benchonly bench3b !size x y z and bc = fun x y z -> benchonly bench3c !size x y z in for i = 0 to List.length lold - 1 do let (name, f, stable) = List.nth lold i in ba name f ll; let (name, f, stable) = List.nth lold i in bb name f ll; let (name, f, stable) = List.nth lold i in bc name f ll; done; for i = 0 to List.length lnew - 1 do let (name, f, stable) = List.nth lnew i in ba name f lc; let (name, f, stable) = List.nth lnew i in bb name f lc; let (name, f, stable) = List.nth lnew i in bc name f lc; done; end; ;; if not !Sys.interactive then Printexc.catch main ();;